Basal area is the area of a given section of land that is occupied by the cross-section of tree trunks and stems at the base. The term is used in forest management and forest ecology.

In most countries, this is usually a measurement taken at the diameter at breast height (1.3m or 4.5 ft) of a tree above the ground and includes the complete diameter of every tree, including the bark. Measurements are usually made for a plot and this is then scaled up for 1 hectare of land for comparison purposes to examine a forest's productivity and growth rate.

To estimate a tree's basal area , use the tree's diameter at breast height in inches with the following formula:

(Note: The factor of 144 is there to convert from Sq Inches to Sq Feet)

This formula simplifies to:

The result will be in ft2.

For the DBH in cm use:

The result will be in m2.

The basal area of a forest stand can be found by adding the basal areas (as calculated above) of all of the trees in an area and dividing by the area of land in which the trees were measured. Basal area is generally expressed as ft2/acre or m2/ha.

A wedge prism can be used to quickly estimate the basal area per hectare. To find basal area using this method, simply multiply your BAF (Basal Area Factor) by the number of "in" trees in your variable radius plot. The BAF will vary based on the prism used, common BAFs include 5/8/10, and all "in" trees are those trees, when viewed through your prism from plot centre, that appear to be in-line with the standing tree on the outside of the prism.

If you carried out a survey using Angle Count Sampling (wedge prism) and you selected a Basal Area Factor (BAF) of 4. And you measured your first tree and its Diameter Breast Height (DBH) was 14 cm. Then the standard way of calculating how much of 1ha was covered by tree area (scaling up from that tree to the hectare) would be:

4/((DBH+0.5)² X π/4))

So this would be 4 - this is the BAF selected for that sampling technique.

DBH would be 14 - this uses an assumed diameter, when actually used is the radius perpendicular to the tangent line.

The + 0.5 allows under and over measurement to be accounted for.

The π/4 converts the rest to the area.

Lastly to see the figure in m² it needs to be multiplied by 10 000. IN this case this means in every Ha there is 242m² of tree area according to this sampled tree being taken as representative of all the unmeasured trees.